IOSR Journal of Engineering (IOSRJEN) ISSN (e): 2250-3021, ISSN (p): 2278-8719 Vol. 04, Issue 06 (June. 2014), ||V1|| PP 09-12
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A Review of Wireless Power Transmission Via Solar Power Satellite Makinde K, Enemuoh F. O, Lawal O. K, Umar I, Abubakar B, and Mahmood M. K 1
department Of Electrical Engineering Federal Polytechnic Bida, Niger State 2 department Of Electrical Engineering Nnamdi Azikiwe University, Awka Kayodemakinde2004@yahoo.com1, eneody@yahoo.com2, lawi4ril@yahoo.com1, uibida@yahoo.com1, balandagisa@yahoo.com1, gimmohmk483@gmail.com1 Abstract: - Wireless Power transmission (WPT) is a useful and convenient technology that can be employed to collect solar energy and concentrate on earth surface without the need for a wire connection called a solar power satellites (SPS). This paper provides an analysis of wireless power transfer with an assessment of its practical applicability in terms of power range and efficiency. In this paper, various technologies available so far for wireless transmission of electricity and the need for a Wireless Energy Transmission will be discussed to find its possibility in actual practices. Also, their advantages, disadvantages and economical consideration will also be presented. This paper concentrates mainly on (i) The most popular concept known as Tesla Theory, (ii) The microwave power transmission(MPT) called Solar power satellite, and (iii) The highly efficient fibre lasers for wireless power transmission. Many concepts, research papers, and patents are available on wireless transmission of electricity but the commercial technologies are yet to be materialized. This paper will also discuss the possible ways to get useful and practical results out of all researches carried out so far elsewhere. The output microwave power ranges from 50W to 200W at 2.45GHz. A coaxial cable is to connect the output of the microwave source to a coax-to-waveguide adapter. This adapter is connected to a waveguide ferrite circulator which protects the microwave source from reflected power. The circulator is connected to a tuning waveguide section to match the waveguide impedance to the antenna input impedance. Keywords: - Wireless transmission, Tesla theory, Microwave power transmission, Rectenna, Transmitting antenna
I.
INTRODUCTION
In our present electricity generation system we waste more than half of its resources. Especially the transmission and distribution losses are the main concern of the present power technology. Much of this power is wasted during transmission from power plant generators to the consumer. The resistance of the wire used in the electrical grid distribution system causes a loss of 26-30% of the energy generated. This loss implies that our present system of electrical distribution is only 70-74% efficient. We have to think of alternate state - of - art technology to transmit and distribute the electricity. Now- a- days global scenario has changed a lot and there are tremendous development in every field. If we don‟t keep pace with the development of new power technology we have to face a decreasing trend in the development of power sector. The transmission of power without wires may be one noble alternative for electricity transmission. Projections of future energy needs over this new century show an increase by a factor of at least two and half, perhaps by as much as a factor of five. All of the scenarios indicate continuing use of fossil sources, nuclear, and large hydro. However, the greatest increases come from “new renewable” and all scenarios show extensive use of these sources by 2050. Indeed, the projections indicate that the amount of energy derived from new renewable by 2050 will exceed that presently provided by oil and gas combined. This would imply a major change in the world‟s energy infrastructure. It would be a herculean task to acquire this projected amount of energy[1]. Wireless transmission of power, also called wireless power transfer (WPT), is a means of delivering power to an end-use device without wires or contacts. One of the oldest known power transmission technologies, WPT is seeing a resurgence of interest. Scientists and engineers have known over the past century that transferring electric power does not require wires to be in physical contact. Wires typically allowed devices to receive both power and communicate with other devices. As wireless data transmission eliminates the need for wires to carry data, there is a growing need to find ways to provide power without wires making devices truly portable and mobile. With the explosive growth in wireless data applications, the market potential for wireless energy transfer technologies has seen a dramatic increase[2].
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